Negative ions in single and dual frequency capacitively coupled fluorocarbon plasmas Yes

Date

2007

Authors

Curley, Garret A
Maric, Dragana
Booth, Jean-Paul
Corr, Cormac
Chabert, Pascal
Guillon, Jean

Journal Title

Journal ISSN

Volume Title

Publisher

Institute of Physics Publishing

Abstract

We have studied charged particle densities and fluxes in a customized industrial etch reactor, running in Ar/O2/c-C4F8 gas mixtures at pressures in the region of 50 mTorr and driven by 2 and 27 MHz RF power, either separately or simultaneously. Independent control of ion flux and ion energy is the aim of using dual frequency plasmas. However, little experimental data exists regarding the charged particle dynamics in complex industrial gas mixtures. Negative ions could play an important role in this type of plasma. The presence of negative ions will modify the positive ion flux arriving at a surface, and they may even reach the surface and participate in etching. We have measured the electron density using a microwave hairpin resonator and the positive ion flux with a RF biased ion flux probe. The ratio of these two quantities, which depends on the negative ion fractions and other factors, is seen to vary strongly with gas chemistry, giving evidence for the presence of negative ions. Our results indicate high electronegativity for high c-C4F8 flow rates. We have also examined the effect of varying the 2 and 27.12 MHz RF powers on both the electron density and the positive ion flux. This allows us to estimate the effect of varying power on the negative ion density. In addition, ultra-violet cavity ring-down spectroscopy was used to measure the F- density directly (Booth et al 2006 Appl. Phys. Lett. 88 151502). This optical measurement was compared with the probe technique.

Description

Keywords

Keywords: Carrier concentration; Charged particles; Fluorocarbons; Gas mixtures; Plasmas; Charged particle dynamics; Dual frequency plasmas; Negative ion fractions; Optical measurements; Negative ions

Citation

Source

Plasma Sources Science and Technology

Type

Journal article

Book Title

Entity type

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2037-12-31